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[1]罗玮,陈媛,齐玉磊.大渡河流域降水时空变化及环流特征分析[J].成都信息工程大学学报,2021,36(06):687-696.[doi:10.16836/j.cnki.jcuit.2021.06.016]
　LUO Wei,CHEN Yuan,QI Yulei.Temporal and Spatial Variation of Precipitation and Circulation Characteristics in Dadu River Basin[J].Journal of Chengdu University of Information Technology,2021,36(06):687-696.[doi:10.16836/j.cnki.jcuit.2021.06.016]

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大渡河流域降水时空变化及环流特征分析

成都信息工程大学学报[ISSN:1006-6977/CN:61-1281/TN] 卷: 36 期数: 2021年06期页码: 687-696 栏目: 大气科学出版日期: 2021-12-31

Title:: Temporal and Spatial Variation of Precipitation and Circulation Characteristics in Dadu River Basin

文章编号:: 2096-1618(2021)06-0687-10

作者:: 罗玮¹; 陈媛¹; 齐玉磊²; (1.四川大汇大数据服务有限公司,四川成都 610016; 2.成都信息工程大学大气科学学院,四川成都 610225)

Author(s):: LUO Wei¹; CHEN Yuan¹; QI Yulei²; (1.Sichuan Dahui Big Data Service Co.LTD,Chengdu 610016,China; 2.College of Atmospheric Sciences,Chengdu University of Information Technology,Chengdu 610225,China)

关键词:: 气象学; 气候变化; 降水; 大渡河流域; 环流特征; EOF

Keywords:: meteorology; climate change; precipitation; Dadu river basin; circulation characteristics; EOF

分类号:: P467

DOI:: 10.16836/j.cnki.jcuit.2021.06.016

文献标志码:: A

摘要:: 为全面了解大渡河流域降水变化规律,将大渡河流域分成4个区域,利用降水融合数据、地面观测数据和NCEP/NCAR再分析资料,对大渡河流域降水时空分布特征,降水变化主模态及其与大气环流的关系进行研究。结果表明,大渡河流域降水时空分布差异较大,最大中心位于二区,其中一、二、三区的降水呈现减少趋势,主要发生在夏秋季,而四区呈现增加趋势,主要发生在春季和夏季。大渡河流域降水变化前三主模态为全区一致型,西北东南反向型和“+-+”三极子型。合成分析表明大渡河流域夏季降水偏多时,西太平洋副热带高压位置偏西,南亚高压偏东,高原夏季风偏强,大渡河流域上空对流层中低层风场为南风异常。

Abstract:: In order to comprehensively understand the law of precipitation change in Dadu River Basin, the Dadu River basin was divided into four regions. The spatial and temporal distribution characteristics of precipitation, the main modes of precipitation change in Dadu River Basin and their relationship with atmospheric circulation were analyzed by using precipitation fusion data, ground surface observations and NCEP/NCAR reanalysis data. The results show that the Dadu River Basin has a great difference in the spatial and temporal distribution of precipitation, and the largest center is located in the second region, among which the precipitation in the first, second and third regions presents a decreasing trend, whichmainly happens in summer and autumn. While the precipitation in the fourth region presents an increasing trend, which mainly happens in spring and summer. The first three main modes of precipitation change in Dadu River Basin are region-wide consistent pattern, northwest-southeast reverse pattern and "+-+" tripole pattern. The synthetic analysis shows that the Dadu River Basin has more summer precipitation, when the position of the western Pacific subtropical high is to the west and the South Asia high is to the east, the plateau summer monsoon is stronger. In that case, the wind field in the middle and lower troposphere over the Dadu River Basin is anomaly southerly wind.

参考文献/References:

[1] 巴仁基,王丽,郑万模,等.大渡河流域地质灾害特征与分布规律[J].成都理工大学学报(自然科学版),2011,38(5):529-537.
[2] 丁俊,鄢毅,岳昌桐,等.四川省大渡河流域地质灾害分布及其发展趋势浅析[J].中国地质灾害与防治学报,2007,18(增刊):22-25.
[3] 程珂,周东升,李铭,等.大渡河流域近51年降水径流特征分析[J].水电能源科学,2013,31(2):5-8.
[4] 吴付华,樊明兰,程琳.大渡河干流暴雨洪水特性初步分析[J].四川水力发电,2013,32(1):4-7.
[5] 刘佳,马振峰,杨淑群,等.1961～2010年大渡河流域极端降水事件变化特征[J].长江流域资源与环境,2015,24(12):2166-2176.
[6] 肖扬,袁淑杰,张碧,等.大渡河流域降水时空分布特征[J].人民长江,2019,50(增刊):60-67.
[7] 孙文慧,盛兆权,李月高.大渡河上游汛期降水时空分布研究[J].农业灾害研究2019,9(3):61-62.
[8] 张冬冬,鲁帆,周翔南,等.基于GAMLSS模型的大渡河流域极值降水非一致性分析[J].水利水电技术,2016,47(5):12-15.
[9] 孟宪贵,郭俊建,韩永清.ERA5再分析数据适用性初步评估[J].海洋气象学报,2018,38(1):91-99.
[10] He J,Yang K,Tang W,et al.The first high-resolution meteorological forcing dataset for land process studies over China[J].Scientific Data,2020,7(1):1-11.
[11] Yang K,He J,Tang W,et al.On downward shortwave and longwave radiations over high altitude regions: Observation and modeling in the Tibetan Plateau[J].Agricultural and Forest Meteorology,2010,150(1):38-46.
[12] Nerini D,Zulkafli Z,Wang L P,et al.A comparative analysis of TRMM-rain gauge data merging techniques at the daily time scale for distributed rainfall-runoff modeling applications[J].Journal of Hydrometeorology,2015,16(5):2153-2168.
[13] Kalnay E,Kanamitsu M,Kistler R,et al.The NCEP/NCAR 40-year reanalysisproject[J].Bulletin of American Meteorological Society,1996,77(3):437-472.
[14] 符淙斌,王强.气候突变的定义和检测方法[J].大气科学,1992,16(4):482-493.
[15] 朱龙腾,陈远生,燕然然,等.1951年至2010北京市降水和气温的变化特征[J].资源科学,2012,34(7):1287-1297.
[16] 汤懋苍.青藏高原季风的形成、演化及振荡特性[J].甘肃气象,1998,16(1):3-16.
[17] 齐玉磊,冯松,黄建平,等.高原夏季风对中东亚干旱半干旱区夏季降水的影响[J].高原气象,2015,34(6):1566-1574.

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备注/Memo

收稿日期:2020-11-04
基金项目:国家重点研发计划资助项目(2018YFC1505702)

更新日期/Last Update: 2021-12-31